Curriculum Vitaes

Katsumi Iizuka

  (飯塚 勝美)

Profile Information

Affiliation
professor (full), Clinical Nutrition, Fujita Health University
Degree
医学博士(大阪大学)

Researcher number
40431712
ORCID ID
 https://orcid.org/0000-0002-9837-6238
J-GLOBAL ID
200901050808238794
researchmap Member ID
6000005331

To prevent the onset of nutrition-related diseases (anti-aging), we are working on research on nutritional therapy that contributes to the prevention and suppression of aggravation of nutrition-related conditions.
        In clinical research, we would like to clarify the relationship between nutrient intake and over /undernutrition diseases after considering genetic predisposition and intestinal flora and promote research that improves the quality of nutritional therapy.
        In basic research, using glucose sensor ChREBP-deficient mice, aging-accelerated mice, diabetic nephropathy mice, etc., we would like to clarify the relationship between nutrients and disease onset (metabolic syndrome, sarcopenia/frail) and perform clinical nutrition therapy. I want to develop basic research that will improve the quality of nutrition therapy.

        Based on the above, we aim to create a method for preventing the onset of nutrition-related diseases (anti-aging).


Major Education

 4

Major Papers

 108
  • Chihiro Ushiroda, Kanako Deguchi, Risako Yamamoto-Wada, Hiroko Tanaka, Chisato Ono, Mitsuyoshi Yoshida, Masayoshi Sarai, Ryoji Miyahara, Hitomi Sasaki, Katsumi Iizuka
    Nutrients, 16(21) 3715, Oct 30, 2024  Peer-reviewedLast authorCorresponding author
  • Kanako Deguchi, Joto Yoshimoto, Risako Yamamoto-Wada, Chihiro Ushiroda, Kotone Yanagi, Mikiya Kishi, Hiroyuki Naruse, Katsumi Iizuka
    Nutrients, 16(17) 2977, Sep 3, 2024  Peer-reviewedLast authorCorresponding author
  • Katsumi Iizuka, Kotone Yanagi, Kanako Deguchi, Chihiro Ushiroda, Risako Yamamoto-Wada, Kazuko Kobae, Yoshiko Yamada, Hiroyuki Naruse
    Nutrients, 16(17) 2931, Sep 2, 2024  Peer-reviewedLead authorCorresponding author
  • Koki Nishida, Shinji Ueno, Yusuke Seino, Shihomi Hidaka, Naoya Murao, Yuki Asano, Haruki Fujisawa, Megumi Shibata, Takeshi Takayanagi, Kento Ohbayashi, Yusaku Iwasaki, Katsumi Iizuka, Shoei Okuda, Mamoru Tanaka, Tadashi Fujii, Takumi Tochio, Daisuke Yabe, Yuuichiro Yamada, Yoshihisa Sugimura, Yoshiki Hirooka, Yoshitaka Hayashi, Atsushi Suzuki
    Nutrients, 16(14) 2270-2270, Jul 14, 2024  
    (1) Background: Proglucagon-derived peptides (PDGPs) including glucagon (Gcg), GLP-1, and GLP-2 regulate lipid metabolism in the liver, adipocytes, and intestine. However, the mechanism by which PGDPs participate in alterations in lipid metabolism induced by high-fat diet (HFD) feeding has not been elucidated. (2) Methods: Mice deficient in PGDP (GCGKO) and control mice were fed HFD for 7 days and analyzed, and differences in lipid metabolism in the liver, adipose tissue, and duodenum were investigated. (3) Results: GCGKO mice under HFD showed lower expression levels of the genes involved in free fatty acid (FFA) oxidation such as Hsl, Atgl, Cpt1a, Acox1 (p < 0.05), and Pparα (p = 0.05) mRNA in the liver than in control mice, and both FFA and triglycerides content in liver and adipose tissue weight were lower in the GCGKO mice. On the other hand, phosphorylation of hormone-sensitive lipase (HSL) in white adipose tissue did not differ between the two groups. GCGKO mice under HFD exhibited lower expression levels of Pparα and Cd36 mRNA in the duodenum as well as increased fecal cholesterol contents compared to HFD-controls. (4) Conclusions: GCGKO mice fed HFD exhibit a lesser increase in hepatic FFA and triglyceride contents and adipose tissue weight, despite reduced β-oxidation in the liver, than in control mice. Thus, the absence of PGDP prevents dietary-induced fatty liver development due to decreased lipid uptake in the intestinal tract.
  • Katsumi Iizuka, Kanako Deguchi, Chihiro Ushiroda, Kotone Yanagi, Yusuke Seino, Atsushi Suzuki, Daisuke Yabe, Hitomi Sasaki, Satoshi Sasaki, Eiichi Saitoh, Hiroyuki Naruse
    Nutrients, 16(11) 1742, Jun 2, 2024  Peer-reviewedLead authorCorresponding author
  • Katsumi Iizuka, Kazuko Kobae, Kotone Yanagi, Yoshiko Yamada, Kanako Deguchi, Chihiro Ushiroda, Yusuke Seino, Atsushi Suzuki, Eiichi Saitoh, Hiroyuki Naruse
    Healthcare, Feb 13, 2024  Peer-reviewedLead authorCorresponding author
  • Katsumi Iizuka, Kanako Deguchi
    Frontiers in Endocrinology, 14, Nov 1, 2023  Lead authorCorresponding author
  • Katsumi Iizuka, Daisuke Yabe
    Nutrients, 15(20) 4314-4314, Oct 10, 2023  Lead authorCorresponding author
    Diabetes is a disease in which lifestyle-based interventions, including recommendations for a healthy diet, play a critical role, and many countries have established their own nutritional guidelines [...]
  • Shinji Ueno, Yusuke Seino, Shihomi Hidaka, Masashi Nakatani, Keisuke Hitachi, Naoya Murao, Yasuhiro Maeda, Haruki Fujisawa, Megumi Shibata, Takeshi Takayanagi, Katsumi Iizuka, Daisuke Yabe, Yoshihisa Sugimura, Kunihiro Tsuchida, Yoshitaka Hayashi, Atsushi Suzuki
    Journal of diabetes investigation, 14(9) 1045-1055, Jun 9, 2023  
    AIMS/INTRODUCTION: Glucagon is secreted from pancreatic α-cells and plays an important role in amino acid metabolism in liver. Various animal models deficient in glucagon action show hyper-amino acidemia and α-cell hyperplasia, indicating that glucagon contributes to feedback regulation between the liver and the α-cells. In addition, both insulin and various amino acids, including branched-chain amino acids and alanine, participate in protein synthesis in skeletal muscle. However, the effect of hyperaminoacidemia on skeletal muscle has not been investigated. In the present study, we examined the effect of blockade of glucagon action on skeletal muscle using mice deficient in proglucagon-derived peptides (GCGKO mice). MATERIALS AND METHODS: Muscles isolated from GCGKO and control mice were analyzed for their morphology, gene expression and metabolites. RESULTS: GCGKO mice showed muscle fiber hypertrophy, and a decreased ratio of type IIA and an increased ratio of type IIB fibers in the tibialis anterior. The expression levels of myosin heavy chain (Myh) 7, 2, 1 and myoglobin messenger ribonucleic acid were significantly lower in GCGKO mice than those in control mice in the tibialis anterior. GCGKO mice showed a significantly higher concentration of arginine, asparagine, serine and threonine in the quadriceps femoris muscles, and also alanine, aspartic acid, cysteine, glutamine, glycine and lysine, as well as four amino acids in gastrocnemius muscles. CONCLUSIONS: These results show that hyperaminoacidemia induced by blockade of glucagon action in mice increases skeletal muscle weight and stimulates slow-to-fast transition in type II fibers of skeletal muscle, mimicking the phenotype of a high-protein diet.
  • Katsumi Iizuka, Hiroko Sato, Kazuko Kobae, Kotone Yanagi, Yoshiko Yamada, Chihiro Ushiroda, Konomi Hirano, Satomi Ichimaru, Yusuke Seino, Akemi Ito, Atsushi Suzuki, Eiichi Saitoh, Hiroyuki Naruse
    Nutrients, 15(9) 2216-2216, May 7, 2023  Peer-reviewedLead authorCorresponding author
    Undernutrition among young women at “Cinderella weight” is socially important in Japan. To determine the nutritional status of Cinderella-weight women, we conducted an exploratory cross-sectional study on the health examination results of employees aged 20 to 39 (n = 1457 and 643 for women and men, respectively). The percentage of underweight women was found to be much higher than that of men (16.8% vs. 4.5%, respectively). In underweight women (n = 245), handgrip strength (22.82 ± 5.55 vs. 25.73 ± 5.81 kg, p < 0.001), cholesterol level (177.8 ± 25.2 vs. 194.7 ± 31.2 mg/dL, p < 0.05), and lymphocyte count (1883 ± 503 vs. 2148 ± 765/μL, p < 0.001) were significantly lower than in overweight women (n = 116). Then, the BMI < 17.5 group (n = 44) was referred to the outpatient nutrition evaluation clinic. Lower prealbumin, cholesterol, and lymphocyte levels were also observed in 34%, 59%, and 32% of the patients, respectively. Regarding dietary characteristics, 32% of the underweight women in this study skipped breakfast, and 50% had low dietary diversity scores. Lower total energy intake, carbohydrate and fiber intake, and Ca and Fe intake were also observed in 90% of the patients. Deficiencies in vitamin B1, B12, D, and folate were diagnosed in 4.6%, 25%, 14%, and 98% of the patients, respectively. Thus, young underweight women may be prone to malnutrition.
  • Katsumi Iizuka
    Nutrients, 15(7) 1778-1778, Apr 5, 2023  Peer-reviewedInvitedLead authorCorresponding author
    Excess fructose intake is associated with obesity, fatty liver, tooth decay, cancer, and cardiovascular diseases. Even after the ingestion of fructose, fructose concentration in the portal blood is never high; fructose is further metabolized in the liver, and the blood fructose concentration is 1/100th of the glucose concentration. It was previously thought that fructose was metabolized in the liver and not in the small intestine, but it has been reported that metabolism in the small intestine also plays an important role in fructose metabolism. Glut5 knockout mice exhibit poor fructose absorption. In addition, endogenous fructose production via the polyol pathway has also received attention; gene deletion of aldose reductase (Ar), ketohexokinase (Khk), and triokinase (Tkfc) has been found to prevent the development of fructose-induced liver lipidosis. Carbohydrate response element-binding protein (Chrebp) regulates the expression of Glut5, Khk, aldolase b, and Tkfc. We review fructose metabolism with a focus on the roles of the glucose-activating transcription factor Chrebp, fructolysis, and the polyol pathway.
  • Iizuka K, Yabe D, Abu-Farha M, Abubaker J, Al-Mulla F
    Frontiers in endocrinology, 14, Jan 18, 2023  Peer-reviewedInvitedLead authorCorresponding author
  • Abu-Farha M, Iizuka K, Yabe D, Al-Mulla F, Abubaker J
    Frontiers in endocrinology, 13, Jan 5, 2023  Peer-reviewedInvited
  • Katsumi Iizuka
    Nutrients, 14(21) 4446-4446, Oct 22, 2022  Peer-reviewedInvitedLead authorLast authorCorresponding author
    Artificial sweeteners have been developed as substitutes for sugar. Sucralose, acesulfame K (ACE K), aspartame, and saccharin are artificial sweeteners. Previously, artificial sweeteners were thought to be effective in treating obesity and diabetes. Human meta-analyses have reported that artificial sweeteners have no effect on body weight or glycemic control. However, recent studies have shown that artificial sweeteners affect glucose absorption in the intestinal tract as well as insulin and incretin secretion in humans and animals. Moreover, artificial sweeteners alter the composition of the microbiota and worsen the glycemic control owing to changes in the gut microbiota. The early intake of ACE K was also shown to suppress the taste response to sugar. Furthermore, a large cohort study showed that high artificial sweetener intake was associated with all-cause mortality, cardiovascular risk, coronary artery disease risk, cerebrovascular risk, and cancer risk. The role of artificial sweeteners in the treatment of diabetes and obesity should be reconsidered, and the replacement of sugar with artificial sweeteners in patients will require the long-term tracking of not only intake but also changes in blood glucose and weight as well as future guidance based on gut bacteria data. To utilize the beneficial properties of artificial sweeteners in treatment, further studies are needed.
  • Katsumi Iizuka
    Frontiers in Endocrinology, 13, Sep 13, 2022  Peer-reviewedLead authorCorresponding author
  • Katsumi Iizuka, Takuma Ishihara, Mayuka Watanabe, Akemi Ito, Masayoshi Sarai, Ryoji Miyahara, Atsushi Suzuki, Eiichi Saitoh, Hitomi Sasaki
    Nutrients, 14(18) 3754, Sep 11, 2022  Peer-reviewedLead authorCorresponding author
    Mobile food records are currently used to determine the nutrition of healthy subjects. To determine the accuracy of such records, we evaluated the nutritional composition of a test meal (noodles and fruit juice) and a hospital meal (Japanese set meal) using two types of mobile food records. Eighteen healthy subjects (2 males and 16 females) were enrolled. Using these diets and validated nutrient-composition information, we evaluated the accuracy of the dietary assessments made by two dietary-record applications, Asken® and Calomeal®, over 5 days. For the test meal, the values provided by the two applications were close to the actual values. In contrast, for the hospital meal, the values provided by the two applications were approximately 1.5 times higher than the actual values. A linear-mixed-model analysis showed that the total energy, carbohydrate, and salt contents were significantly overestimated in the hospital meal. Protein also tended to be overestimated, while the fat content was not significantly overestimated. Furthermore, the total energy and fat contents increased significantly over time. No association with age was observed. A comparison of the coefficients of variation (CVs) for each nutrient in the hospital meal indicated that the fat levels were significantly higher than those in the test meal. In conclusion, the accuracy of mobile food records depends on the type of meal. Our data will provide lessons for the use of meal-recording applications in special cases, such as hospital food.
  • Akira Sumida, Katsumi Iizuka, Takehiro Kato, Yanyan Liu, Sodai Kubota, Saki Kubota-Okamoto, Teruaki Sakurai, Toshinori Imaizumi, Yoshihiro Takahashi, Masami Mizuno, Ken Takao, Takuo Hirota, Tetsuya Suwa, Yukio Horikawa, Mayumi Yamamoto, Yusuke Seino, Atsushi Suzuki, Daisuke Yabe
    BMC endocrine disorders, 22(1) 164-164, Jun 22, 2022  Peer-reviewedCorresponding author
    BACKGROUND: Familial hypocalciuric hypercalcemia (FHH) is a rare autosomal dominant disease, which requires differential diagnosis from relatively common primary hyperparathyroidism (PHPT) in order to avoid unnecessary surgery. CASE PRESENTATION: A 16-year-old female had been followed by the department of psychosomatic medicine at our institution. Throughout the follow-up period, her plasma calcium levels were high, plasma Pi levels were relatively low, and plasma intact PTH was relatively high. She was referred to our department to determine the cause of her hypercalcemia. Her 24 h urinary calcium excretion was as low as 100 mg/day, and calcium creatinine clearance ratio was below 0.01. Moreover, she had a family history of hypercalcemia (proband, her brother, and her father). The genetic testing for her family revealed that she, her brother, and her father were definitively diagnosed with FHH type 1 due to the heterozygous calcium-sensing receptor mutation (NM_00388:4:c.164C > T:p.Pro55Leu). CONCLUSION: We experienced a 16-year-old female with FHH, in whom genetic testing identified the heterozygous calcium-sensing receptor mutation (NM_00388:4:c.164C > T:p.Pro55Leu) as pathogenic, permitting a definitive diagnosis of FHH type 1. The genetic testing for calcium sensing receptor is beneficial to distinguish asymptomatic primary hyperparathyroidism from FHH.
  • Daichi Tsukada, Katsumi Iizuka, Ken Takao, Yanyan Liu, Sodai Kubota, Saki Okamoto-Kubota, Teruaki Sakurai, Toshinori Imaizumi, Mayu Sakai, Takehiro Kato, Masami Mizuno, Takuo Hirota, Tetsuya Suwa, Yukio Horikawa, Mayumi Yamamoto, Sumihisa Kubota, Daisuke Yabe
    Internal medicine (Tokyo, Japan), 61(18) 2753-2757, Feb 26, 2022  Peer-reviewedCorresponding author
    We treated a 22-year-old woman suffering from Graves' disease and thymic hyperplasia. She was referred to our institution for a close investigation of thyrotoxicosis and thymic mass. Thyroid tests and magnetic resonance imaging resulted in a diagnosis of Graves' disease and thymic hyperplasia. The thyroid function and thyroid-stimulating hormone receptor antibody (TRAb) were normalized one and five months after thiamazole initiation, respectively. The thymic size began to decrease after 1 month and was further decreased after 5 months; it was normalized after 12 months. The correlation between TRAb titers and the thymic size (R2=0.99) suggested that the patient's autoimmunity might have contributed to the thymic hyperplasia.
  • Shunsuke Tominari, Megumi Yasuda, Takehiro Kato, Mayu Sakai, Sodai Kubota, Kenta Nonomura, Tokuyuki Hirose, Ken Takao, Yanyan Liu, Masami Mizuno, Takuo Hirota, Katsumi Iizuka, Tetsuya Suwa, Yukio Horikawa, Daisuke Yabe
    Diabetology international, 13(1) 295-299, Jan, 2022  
    Background: Elderly adults with diabetes are at increased risk of severe hypoglycemia and hypoglycemic coma due to various conditions including decline in cognitive function, reduced activity of daily living (ADL) and reduced renal function; special cautions are, therefore, recommended to avoid these life-threatening events. Case presentation: A 92-year-old female was admitted to our institution because of severe coma. Upon arrival, her serum C-peptide was 1.64 ng/mL despite low plasma glucose (24 mg/dL) and serum glimepiride (40.85 ng/mL). She had past history of compression fracture of her lumbar spine, which substantially affected her ADL. Her score on the dementia assessment sheet for community-based integrated care system-8 items (DASC-8) was 26 points. She had been receiving 12 oral medications for diabetes, essential hypertension, chronic gastritis and constipation from her nearby clinic. Her physician-in-charge had found that she was not taking her medications properly and simplified her prescription regimen to 3 oral medications with vildagliptin 50 mg twice daily replaced by glimepiride 3 mg once daily and asked her son to assist in taking the drugs 6 days before her admission to our hospital. While her consciousness level was improved to some extent, she was transferred to a long-term care bed hospital because it had become too difficult to care for her at home. Conclusions: It is important to note that anti-diabetes drugs should be carefully selected based on each patient's cognitive function and ADL, and that the reasoning should be shared with the general practitioners involved to avoid severe hypoglycemic events. Supplementary Information: The online version contains supplementary material available at 10.1007/s13340-021-00510-9.
  • Nao Nomura, Katsumi Iizuka, Eiichi Goshima, Kazuyoshi Hosomichi, Atsushi Tajima, Sodai Kubota, Yanyan Liu, Ken Takao, Takehiro Kato, Masami Mizuno, Takuo Hirota, Tetsuya Suwa, Yukio Horikawa, Daisuke Yabe
    Endocrine journal, 69(4) 473-477, Nov 19, 2021  Peer-reviewedCorresponding author
    Glucokinase has an important role in regulating glycolysis as a glucose sensor in liver and pancreatic β cells. Glucokinase-maturity onset diabetes in young (GCK-MODY also known as MODY2) is caused by autosomal dominant gene mutation of the GCK gene; it is characterized by mild fasting hyperglycemia and small 2-h glucose increment during 75 g-oral glucose tolerance test (OGTT) as well as near-normal postprandial glucose variabilities. A 10-year-old girl with family history of diabetes visited her physician after being found positive for urinary glucose by school medical checkup. She received a diagnosis of diabetes based on the laboratory data: 75 g-OGTT (mild fasting hyperglycemia and small 2-h glucose increment) and factory-calibrated glucose monitoring (mild elevation of average glucose level and near-normal glycemic variability), which raised suspicion of GCK-MODY. She was then referred to our institution for genetic examination, which revealed a GCK heterozygous mutation (NM_000162: exon10: c.1324G>T: p.E442X) in the proband as well as in her mother and maternal grandmother, who had been receiving anti-diabetes medications without knowing that they had GCK-MODY specifically. GCK-MODY cases show incidence of microvascular and macrovascular diseases similar to that of normal subjects, and their glucose levels are adequately controlled without anti-diabetes drug use. Thus, early and definitive diagnosis of MODY2 by genetic testing is important to avoid unnecessary medication.
  • Daisuke Yabe, Katsumi Iizuka, Mike Baxter, Daisuke Watanabe, Hideaki Kaneto
    Journal of Diabetes Investigation, 12(11) 1992-2001, Nov 19, 2021  
    INTRODUCTION: Treatments for type 2 diabetes (T2D) targeting baseline glucose levels but not postprandial glucose can result in normalized fasting blood glucose but suboptimal overall glycemic control (high glycated hemoglobin); residual hyperglycemia. In Japanese patients with T2D the predominant pathophysiology is lower insulin secretory capacity, and residual hyperglycemia is common with basal insulin treatment. Single-injection, fixed-ratio combinations of glucagon-like peptide-1 receptor agonists and basal insulin have been developed. iGlarLixi (insulin glargine 100 unit/mL [iGlar]: lixisenatide ratio of 1 U:1 µg) is for specific use in Japan. Post-hoc analysis of the LixiLan JP-L trial (NCT02752412) compared the effect of iGlarLixi with iGlar on this specific subpopulation with residual hyperglycemia. MATERIALS AND METHODS: Outcomes at week 26 (based on last observation carried forward) were assessed in patients in the modified intent-to-treat population with baseline residual hyperglycemia. RESULTS: Overall, 83 (32.5%) patients in the iGlarLixi group and 79 (30.7%) patients in the iGlar group had baseline residual hyperglycemia. The proportion of patients with residual hyperglycemia at week 26 decreased to 15.7% in the iGlarLixi group, and increased to 36.9% in the iGlar group. Patients in the iGlarLixi group had significantly greater reductions in glycated hemoglobin compared with the iGlar group (-0.72% difference between groups; P < 0.0001). CONCLUSIONS: New data from this post-hoc analysis of the JP-L trial show that treatment with fixed-ratio combination iGlarLixi reduced the proportion of Japanese patients with residual hyperglycemia from baseline to week 26 and significantly reduced glycated hemoglobin versus similar doses of iGlar alone.
  • Katsumi Iizuka
    International Journal of Molecular Sciences, 22(21), Nov 8, 2021  Peer-reviewedInvitedLead authorCorresponding author
    Carbohydrates are macronutrients that serve as energy sources. Many studies have shown that carbohydrate intake is nonlinearly associated with mortality. Moreover, high-fructose corn syrup (HFCS) consumption is positively associated with obesity, cardiovascular disease, and type 2 diabetes mellitus (T2DM). Accordingly, products with equal amounts of glucose and fructose have the worst effects on caloric intake, body weight gain, and glucose intolerance, suggesting that carbohydrate amount, kind, and form determine mortality. Understanding the role of carbohydrate response element binding protein (ChREBP) in glucose and lipid metabolism will be beneficial for elucidating the harmful effects of high-fructose corn syrup (HFCS), as this glucose-activated transcription factor regulates glycolytic and lipogenic gene expression. Glucose and fructose coordinately supply the metabolites necessary for ChREBP activation and de novo lipogenesis. Chrebp overexpression causes fatty liver and lower plasma glucose levels, and ChREBP deletion prevents obesity and fatty liver. Intestinal ChREBP regulates fructose absorption and catabolism, and adipose-specific Chrebp-knockout mice show insulin resistance. ChREBP also regulates the appetite for sweets by controlling fibroblast growth factor 21, which promotes energy expenditure. Thus, ChREBP partly mimics the effects of carbohydrate, especially HFCS. The relationship between carbohydrate intake and diseases partly resembles those between ChREBP activity and diseases.
  • Katsumi Iizuka
    Nutrients, 13(11), Oct 22, 2021  
    Diet composition determines the risk of obesity, cardiovascular disease, malignant tumors, and type 2 diabetes mellitus [...].
  • Yusuke Seino, Katsumi Iizuka, Atsushi Suzuki
    Journal of diabetes investigation, 12(10) 1759-1761, Oct, 2021  
    Carbohydrates, otherwise known as saccharides, are a macronutrient that is found in a wide variety of natural and processed foods. Carbohydrates include sugars, starch, and cellulose (insoluble dietary fiber), and can be categorized as monosaccharides, disaccharides, oligosaccharides, and polysaccharides. Monosaccharides such as glucose and fructose, and disaccharides such as sucrose, are together referred to as sugars.
  • Sakiho Imaki, Katsumi Iizuka, Yukio Horikawa, Megumi Yasuda, Sodai Kubota, Takehiro Kato, Yanyan Liu, Ken Takao, Masami Mizuno, Takuo Hirota, Tetsuya Suwa, Kazuyoshi Hosomichi, Atsushi Tajima, Yuuka Fujiwara, Yuji Yamazaki, Hitoshi Kuwata, Yutaka Seino, Daisuke Yabe
    Journal of diabetes investigation, 12(10) 1914-1918, Oct, 2021  Peer-reviewedCorresponding author
    Heterozygous RFX6 mutation has emerged as a potential cause of maturity-onset diabetes mellitus of the young (MODY). A 16-year-old female was diagnosed with diabetes by her family doctor and was referred to our institution for genetic examination. Genetic testing revealed a novel RFX6 heterozygous mutation (NM_173560: exon17: c.1954C>T: p.R652X) in the patient and in her mother and brother. She had no islet-specific autoantibodies and showed a reduced meal-induced response of insulin, glucose-dependent insulinotropic polypeptide, and glucagon-like peptide-1, which is consistent with the phenotype of MODY due to heterozygous RFX6 mutation. In conclusion, we report a case of MODY due to a novel heterozygous mutation, p.R652X.
  • Katsumi Iizuka, Mike Baxter, Daisuke Watanabe, Daisuke Yabe
    Diabetes, obesity & metabolism, 23(12) 2795-2803, Sep 2, 2021  Peer-reviewedLead authorCorresponding author
    AIMS: To compare the benefits of iGlarLixi, a fixed-ratio combination of insulin glargine 100 U/mL and lixisenatide (iGlarLixi), over insulin glargine (iGlar) for reducing residual hyperglycaemia (defined as glycated haemoglobin [HbA1c] ≥7% despite fasting plasma glucose [FPG] <130 mg/dL) in Japanese people with type 2 diabetes (T2D) inadequately controlled on oral antidiabetic drugs. MATERIALS AND METHODS: The open-label LixiLan JP-O2 study compared iGlarLixi with iGlar over 26 weeks in 521 people with T2D. This post-hoc analysis assessed the proportions of participants with residual hyperglycaemia in the overall population, and in subgroups defined by age and dipeptidyl-peptidase 4 inhibitor (DPP4i) use at screening. RESULTS: At 26 weeks, significantly fewer participants had residual hyperglycaemia in the iGlarLixi versus the iGlar arm (8.1% vs. 19.6%; P = 0.0002). There was also less residual hyperglycaemia with iGlarLixi than iGlar in all subgroup analyses: 9.0% versus 16.8% in participants aged <65 years (P = 0.0369); 6.5% versus 24.2% in participants aged ≥65 years (P = 0.0008); 10.1% versus 20.5% (P = 0.0202) in participants with DPP4i use; and 6.2% versus 18.8% in those without DPP4i use (P = 0.0024). The proportion reaching both HbA1c <7% and FPG <130 mg/dL was higher with iGlarLixi versus iGlar in the overall population (50.8% vs. 31.5%; P < 0.0001), and in all studied subgroups. CONCLUSIONS: iGlarLixi reduced the prevalence of residual hyperglycaemia in Japanese people with uncontrolled T2D compared with iGlar, both in the overall population and in subgroups defined by age and DPP4i use at screening. This article is protected by copyright. All rights reserved.
  • Ken Takao, Katsumi Iizuka, Yanyan Liu, Teruaki Sakurai, Sodai Kubota, Saki Kubota-Okamoto, Toshinori Imaizumi, Yoshihiro Takahashi, Yermek Rakhat, Satoko Komori, Tokuyuki Hirose, Kenta Nonomura, Takehiro Kato, Masami Mizuno, Tetsuya Suwa, Yukio Horikawa, Masakatsu Sone, Daisuke Yabe
    The Journal of endocrinology, 248(3) 317-324, Mar, 2021  Peer-reviewedCorresponding author
    Carbohydrate response element binding protein (ChREBP) is critical in the regulation of fatty acid and triglyceride synthesis in the liver. Interestingly, Chrebp-/- mice show reduced levels of plasma cholesterol, which is critical for steroid hormone synthesis in adrenal glands. Furthermore, Chrebp mRNA expression was previously reported in human adrenal glands. Thus, it remains to be investigated whether ChREBP plays a role directly or indirectly in steroid hormone synthesis and release in adrenal glands. In the present study, we find that Chrebp mRNA is expressed in mouse adrenal glands and that ChREBP binds to carbohydrate response elements. Histological analysis of Chrebp-/- mice shows no adrenal hyperplasia and less oil red O staining compared with that in wild-type mice. In adrenal glands of Chrebp-/- mice, expression of Fasn and Scd1, two enzymes critical for fatty acid synthesis, was substantially lower and triglyceride content was reduced. Expression of Srebf2, a key transcription factor controlling synthesis and uptake of cholesterol and the target genes was upregulated, while cholesterol content was not significantly altered in the adrenal glands of Chrebp-/- mice. Adrenal corticosterone content and plasma adrenocorticotropic hormone and corticosterone levels were not significantly altered in Chrebp-/- mice. Consistently, expression of genes related to steroid hormone synthesis was not altered. Corticosterone secretion in response to two different stimuli, namely 24-h starvation and cosyntropin administration, were also not altered in Chrebp-/- mice. Taking these results together, corticosterone synthesis and release were not affected in Chrebp-/- mice despite reduced plasma cholesterol levels.
  • Ken Takao, Ayaka Tani, Tetsuya Suwa, Yayoi Kuwabara-Ohmura, Kenta Nonomura, Yanyan Liu, Takehiro Kato, Masami Mizuno, Takuo Hirota, Mayumi Enya, Katsumi Iizuka, Yukio Horikawa, Chiemi Saigo, Yusuke Kito, Tatsuhiko Miyazaki, Naoyuki Ohe, Toru Iwama, Daisuke Yabe
    BMC endocrine disorders, 21(1) 13-13, Jan 11, 2021  Peer-reviewed
    BACKGROUND: Primary central nervous system lymphoma is a rare extra-nodal lymphoma of the central nervous system. Primary central nervous system lymphoma lesions usually appear in the vicinity of the ventricle, and there are few reports of primary central nervous system lymphoma with hypothalamic-pituitary lesions. CASE PRESENTATION: We treated a 56-year-old male with primary central nervous system lymphoma with the primary lesion in the hypothalamus, which was found by magnetic resonance imaging after sudden onset of endocrinological abnormalities. Initially, he was hospitalized to our department for hyponatremia. Endocrinological examination in conjunction with head magnetic resonance imaging and endoscopic biopsy revealed hypothalamic hypopituitarism and tertiary hypoadrenocorticism caused by a rapidly growing, diffuse large B-cell lymphoma in the hypothalamus. Remission of the tumor was achieved by high-dose methotrexate with whole brain radiotherapy, and some of the hormone responses were normalized. CONCLUSIONS: While primary central nervous system lymphoma is rare, it is important to note that hypopituitarism can result and that the endocrinological abnormalities can be partially restored by its remission.
  • Yangyang Liu, Sodai Kubota, Katsumi Iizuka, Daisuke Yabe
    Journal of diabetes investigation, 11(6) 1422-1425, Nov, 2020  Peer-reviewed
    Cardiovascular disease (CVD) is one of the most serious health-related problems in patients with type 2 diabetes, especially in western countries. Basic and clinical research on how to prevent CVD onset and progression in patients with type 2 diabetes have been an urgent task for decades. Glucagon-like peptide-1 (GLP-1) is one of two incretins that are responsible for ≥50% of postprandial insulin secretion and subsequent glucose excursion, and has been intensively investigated from the perspective of CVD due to its cardiovascular benefits in preclinical studies1, 2 .
  • Yayoi Kuwabara-Ohmura, Katsumi Iizuka, Yanyan Liu, Ken Takao, Kenta Nonomura, Takehiro Kato, Masami Mizuno, Kazuyoshi Hosomichi, Atsushi Tajima, Tatsuhiko Miyazaki, Yukio Horikawa, Daisuke Yabe
    Endocrine journal, 67(9) 981-988, Sep 28, 2020  Peer-reviewedCorresponding author
    Pancreatic tail hypoplasia is a common manifestation of maturity onset diabetes of the young (MODY) 5 that can cause reno-genito-urinary malformations such as renal cysts and bicornuate uterus. A 69-year-old female was admitted to our hospital for consultation on her relatively high HbA1c value. At age 20, she was diagnosed with uterus bicornis. At age 68, she was diagnosed with pancreas tail hypoplasia, renal cysts and non-functioning pancreatic neuroendocrine tumor (NET) in addition to right hydronephrosis due to multiple ureteral bladder carcinomas. She received total right nephrectomy, ureterectomy and partial cystectomy for multiple ureteral bladder carcinomas [non-invasive papillary urothelial carcinoma, low grade (G1), pTa, LV10, u-rtx, RM0, and pN0 (0/8)]. She also received distal pancreatomy for pancreatic NET [NET G1]. She then was referred to our department at age 69 due to increase in her HbA1c value from 6.2 to 7.2%; 75 g oral glucose tolerance test revealed impaired glucose tolerance. Her clinical characteristics (uterus bicornis, pancreas hypoplasia, and renal cysts) closely resembled the phenotype of MODY5, in which mutations in the HNF1B gene have been reported. Our genetic testing failed to detect any mutation or microdeletion in the coding or minimal promoter regions of the HNF1B gene. Although there remains a possibility that genetic mutations in introns and regulatory regions of the HNF1B gene might cause the MODY5-like manifestations in this patient, these results might suggest involvement of genes other than HNF1B in the pathogenesis of our patient's disease.
  • Sodai Kubota, Yanyan Liu, Katsumi Iizuka, Hitoshi Kuwata, Yutaka Seino, Daisuke Yabe
    Nutrients, 12(9), Aug 19, 2020  Peer-reviewed
    While adjustment of total energy and nutritional balance is critically important, meal sequence, a relatively simple method of correcting postprandial hyperglycemia, is becoming established as a practical dietary approach for prevention and management of diabetes and obesity. Meal sequence, i.e., consumption of protein and/or fat before carbohydrate, promotes secretion of glucagon-like peptide-1 (GLP-1) from the gut and ameliorates secretions of insulin and glucagon and delays gastric emptying, thereby improving postprandial glucose excursion. GLP-1 is known to suppress appetite by acting on the hypothalamus via the afferent vagus nerve. Thus, enhancement of GLP-1 secretion by meal sequence is expected to reduce body weight. Importantly, consumption of a diet rich in saturated fatty acids such as meat dishes before carbohydrate increases secretions of not only GLP-1 but also glucose-dependent insulinotropic polypeptide (GIP), which promotes energy storage in adipose tissue and may lead to weight gain in the long term. Dietary fiber intake before carbohydrate intake significantly reduces postprandial glucose elevation and may have a weight loss effect, but this dietary strategy does not enhance the secretion of GLP-1. Thus, it is suggested that their combination may have additive effects on postprandial glucose excursion and body weight. Indeed, results of some clinical research supports the idea that ingesting dietary fiber together with meal sequence of protein and/or fat before carbohydrate benefits metabolic conditions of individuals with diabetes and obesity.
  • Kenta Nonomura, Katsumi Iizuka, Yayoi Kuwabara-Ohmura, Daisuke Yabe
    Internal medicine (Tokyo, Japan), 59(12) 1535-1539, Jun 15, 2020  Peer-reviewedCorresponding author
    A 72-year-old man had type 2 diabetes (T2D) that had been diagnosed at 54 years old. Macroalbuminuria was first detected at age 64. While his HbA1c had been kept below 7%, his estimated glomerular filtration rate (eGFR) was declining rapidly. At 70 years old, his eGFR dropped below 50 ml/min/1.73 m2. A renal biopsy revealed diabetic nephropathy. sodium glucose transporter 2 inhibitors (SGLT2i)/glucagon-like peptide-1 receptor agonists (GLP-1RA) combination therapy substantially improved his eGFR and urinary albumin level, and the renoprotective effect persisted for the two-year study period. These findings suggest that SGLT2i and GLP-1RA can additively improve the renal function in patients with T2D.
  • Katsumi Iizuka, Daisuke Yabe
    Nutrients, 12(6) 1668-1668, Jun 4, 2020  Peer-reviewedInvitedLead authorCorresponding author
    Conventional recommendations for dietary intervention have been generally based on population groups divided by gender and age [...]
  • Megumi Yasuda, Katsumi Iizuka, Takehiro Kato, Yanyan Liu, Ken Takao, Kenta Nonomura, Masami Mizuno, Daisuke Yabe
    Journal of diabetes investigation, 11(3) 745-747, May, 2020  Peer-reviewedCorresponding author
    A 70-year-old woman with type 2 diabetes was admitted to Gifu University Hospital, Gifu, Japan, because of ketosis. She was diagnosed with type 2 diabetes at age 49 years and started insulin therapy at age 57 years, which restored glycemic control. Insulin therapy was discontinued and oral antidiabetes drugs, including sodium-glucose cotransporter 2 inhibitor dapagliflozin, were initiated at age 69 years. Thereafter, her bodyweight declined from 40.0 kg to 29.8 kg in 12 months; glycated hemoglobin remained >8.0%. On admission to our hospital, her laboratory tests and computed tomography scan showed ketosis, insulinopenia, and the presence of dehydration and bacterial pneumonia. She also lost substantial bodyweight and developed sarcopenia. The current case shows the importance of patient assessment before sodium-glucose cotransporter 2 inhibitor initiation in the elderly.
  • Katsumi Iizuka, Ken Takao, Daisuke Yabe
    Frontiers in endocrinology, 11 587189-587189, 2020  Peer-reviewedInvitedLead authorCorresponding author
    Carbohydrate response element-binding protein (ChREBP) plays an important role in the development of type 2 diabetes, dyslipidemia, and non-alcoholic fatty liver disease, as well as tumorigenesis. ChREBP is highly expressed in lipogenic organs, such as liver, intestine, and adipose tissue, in which it regulates the production of acetyl CoA from glucose by inducing Pklr and Acyl expression. It has recently been demonstrated that ChREBP plays a role in the conversion of gut microbiota-derived acetate to acetyl CoA by activating its target gene, Acss2, in the liver. ChREBP regulates fatty acid synthesis, elongation, and desaturation by inducing Acc1 and Fasn, elongation of long-chain fatty acids family member 6 (encoded by Elovl6), and Scd1 expression, respectively. ChREBP also regulates the formation of very low-density lipoprotein by inducing the expression of Mtp. Furthermore, it plays a crucial role in peripheral lipid metabolism by inducing Fgf21 expression, as well as that of Angptl3 and Angptl8, which are known to reduce peripheral lipoprotein lipase activity. In addition, ChREBP is involved in the production of palmitic-acid-5-hydroxystearic-acid, which increases insulin sensitivity in adipose tissue. Curiously, ChREBP is indirectly involved in fatty acid β-oxidation and subsequent ketogenesis. Thus, ChREBP regulates whole-body lipid metabolism by controlling the transcription of lipogenic enzymes and liver-derived cytokines.
  • Katsumi Iizuka, Masami Mizuno, Kenta Nonomura, Daisuke Yabe
    BMJ case reports, 12(5), May 27, 2019  Peer-reviewedLead authorCorresponding author
    A 31-year-old woman experienced tetany and was diagnosed with Hashimoto thyroiditis and hypoparathyroidism. At 33 years of age, her renal function gradually decreased. At 39 years of age, she moved to our hospital and was diagnosed with tubulointerstitial nephritis by renal biopsy. Simultaneously, she was diagnosed with Sjögren's syndrome by autoantibodies and salivary gland biopsy. At 40 years of age, based on hypoglycaemia and eosinophilia, she was suspected of adrenal insufficiency, and was diagnosed with primary adrenal insufficiency by both corticotropin stimulation and corticotropin-releasing hormone stimulation test. She was diagnosed as autoimmune polyglandular syndrome (APS) (Hashimoto thyroiditis and possible primary adrenal insufficiency) as well as primary hypoparathyroidism and Sjögren's syndrome, which are very rarely complicated in APS-2. Therefore, in this patient, it was helpful to pay attention for new onset of other autoimmune diseases.
  • Masami Mizuno, Katsumi Iizuka, Takuma Ishihara, Shusaku Fukaya, Shunji Yoshida, Jun Takeda
    Diabetes therapy : research, treatment and education of diabetes and related disorders, 10(1) 269-276, Feb, 2019  Peer-reviewedCorresponding author
    INTRODUCTION: Glycated hemoglobin (A1c) and glycated albumin (GA) are often used as indicators of glycemic control. In this study, we determined whether prednisolone (PSL) administration lowers plasma GA. METHODS: We investigated the factors affecting GA using multivariate analysis in 48 subjects with connective tissue diseases (CTDs). RESULTS: Multiple regression analysis of GA showed that the dose of PSL [β = - 1.36; 95% confidence interval (CI) - 2.59 to - 0.14; p = 0.03], age (β = 0.06; 95% CI 0.03-0.09; p < 0.001), body mass index (BMI) (β = - 0.14; 95% CI - 0.28 to - 0.01; p = 0.042), and A1c (β = 1.4; 95% CI 0.38-2.42; p = 0.008) significantly correlated with GA (adjusted R2 = 0.518). Moreover, GA levels adjusted for age, sex, BMI, plasma albumin (Alb) and creatinine (Cre), and A1c in the subjects taking ≥ 5 mg PSL was significantly lower than those in those taking < 5 mg PSL. Finally, the dose of PSL (as a continuous variable) was negatively correlated with GA adjusted for age, sex, BMI, Alb, Cre, and A1c. CONCLUSION: High dose (≥ 5 mg) PSL reduces GA concentration more than glycemia.
  • Teruaki Sakurai, Katsumi Iizuka, Takehiro Kato, Jun Takeda
    Internal medicine (Tokyo, Japan), 58(2) 259-262, Jan 15, 2019  Peer-reviewedCorresponding author
    A 60-year-old male patient with type 1 diabetes mellitus (T1DM) was admitted for glycemic control. The patient exhibited abdominal adiposity, osteoporosis, and high insulin requirement (>100 U), and we suspected hypogonadism. A physical examination revealed small testes and thin pubic hair, laboratory examination found high luteinizing hormone (LH) and follicle stimulating hormone (FSH) levels and low testosterone levels, and a chromosome analysis (47, XXY) indicated hypogonadism due to Klinefelter syndrome (KS). KS is associated with autoimmune diseases and patients positive for diabetes related auto-antibodies. In male patients with T1DM and abdominal adiposity, the concurrence of KS should be taken into consideration.
  • Tomohisa Hatta, Shun-Ichiro Iemura, Tomokazu Ohishi, Hiroshi Nakayama, Hiroyuki Seimiya, Takao Yasuda, Katsumi Iizuka, Mitsunori Fukuda, Jun Takeda, Tohru Natsume, Yukio Horikawa
    Scientific reports, 8(1) 16756-16756, Nov 13, 2018  Peer-reviewed
    Calpain-10 (CAPN10) is the calpain family protease identified as the first candidate susceptibility gene for type 2 diabetes mellitus (T2DM). However, the detailed molecular mechanism has not yet been elucidated. Here we report that CAPN10 processes microtubule associated protein 1 (MAP1) family proteins into heavy and light chains and regulates their binding activities to microtubules and actin filaments. Immunofluorescent analysis of Capn10-/- mouse embryonic fibroblasts shows that MAP1B, a member of the MAP1 family of proteins, is localized at actin filaments rather than at microtubules. Furthermore, fluorescence recovery after photo-bleaching analysis shows that calpain-10 regulates actin dynamics via MAP1B cleavage. Moreover, in pancreatic islets from CAPN10 knockout mice, insulin secretion was significantly increased both at the high and low glucose levels. These findings indicate that deficiency of calpain-10 expression may affect insulin secretion by abnormal actin reorganization, coordination and dynamics through MAP1 family processing.
  • Katsumi Iizuka, Ken Takao, Takehiro Kato, Yukio Horikawa, Jun Takeda
    Nutrients, 10(11), Nov 7, 2018  Peer-reviewed
    Carbohydrate response element-binding protein (ChREBP) has an important role in the carbohydrate-mediated regulation of hepatic de novo lipogenesis, but the mechanism for how it regulates plasma triacylglycerol (TAG) levels has not been established. This study aimed to clarify the role of ChREBP in regulation of plasma TAG levels. We analyzed the metabolic changes in mice infected with an adenovirus expressing ChREBP Δ196 (Ad-ChREBP). Compared with adenovirus harboring green fluorescent protein infected mice, Ad-ChREBP-infected mice had higher plasma free fatty acid levels and paradoxically lower plasma 3-hydroxybutyrate levels through decreased fatty acid oxidation, rather than ketogenesis. Consistent with their hepatomegaly and increased lipogenic gene expression, the liver TAG contents were much higher. Regarding lipid composition, C16:0 was much lower and C18:1n-9 was much higher, compatible with increased stearoyl CoA desaturase-1 and ELOVL fatty acid elongase 6 expression. Furthermore, Ad-ChREBP-infected mice had decreased plasma TAG and very low density lipoprotein (VLDL)-TAG levels, consistent with decreased Angiopoietin-like protein 3 (Angptl3) and increased fibroblast growth factor (Fgf21) mRNA and protein levels. Finally, Ad-ChREBP infection increased white adipose tissue Ucp1 mRNA levels with increased plasma Fgf21 levels. Because Fgf21 and Angptl3 are known to activate and suppress lipolysis in adipose tissues and oxidative tissues, ChREBP appears to regulate plasma TAG levels by modulating Fgf21 and Angptl3 levels. Thus, ChREBP overexpression led to dissociation of hepatic steatosis from hyperlipidemia.
  • Takehiro Kato, Katsumi Iizuka, Ken Takao, Yukio Horikawa, Tadahiro Kitamura, Jun Takeda
    Nutrients, 10(3), Mar 12, 2018  Peer-reviewed
    We have previously reported that 60% sucrose diet-fed ChREBP knockout mice (KO) showed body weight loss resulting in lethality. We aimed to elucidate whether sucrose and fructose metabolism are impaired in KO. Wild-type mice (WT) and KO were fed a diet containing 30% sucrose with/without 0.08% miglitol, an α-glucosidase inhibitor, and these effects on phenotypes were tested. Furthermore, we compared metabolic changes of oral and peritoneal fructose injection. A thirty percent sucrose diet feeding did not affect phenotypes in KO. However, miglitol induced lethality in 30% sucrose-fed KO. Thirty percent sucrose plus miglitol diet-fed KO showed increased cecal contents, increased fecal lactate contents, increased growth of lactobacillales and Bifidobacterium and decreased growth of clostridium cluster XIVa. ChREBP gene deletion suppressed the mRNA levels of sucrose and fructose related genes. Next, oral fructose injection did not affect plasma glucose levels and liver fructose contents; however, intestinal sucrose and fructose related mRNA levels were increased only in WT. In contrast, peritoneal fructose injection increased plasma glucose levels in both mice; however, the hepatic fructose content in KO was much higher owing to decreased hepatic Khk mRNA expression. Taken together, KO showed sucrose intolerance and fructose malabsorption owing to decreased gene expression.
  • Hiroyuki Niwa, Katsumi Iizuka, Takehiro Kato, Wudelehu Wu, Hiromi Tsuchida, Ken Takao, Yukio Horikawa, Jun Takeda
    Nutrients, 10(3), Mar 7, 2018  Peer-reviewedCorresponding author
    The regulation of hepatic very-low-density lipoprotein (VLDL) secretion plays an important role in the pathogenesis of dyslipidemia and fatty liver diseases. VLDL is controlled by hepatic microsomal triglyceride transfer protein (MTTP). Mttp is regulated by carbohydrate response element binding protein (ChREBP) and small heterodimer partner (SHP). However, it is unclear whether both coordinately regulate Mttp expression and VLDL secretion. Here, adenoviral overexpression of ChREBP and SHP in rat primary hepatocytes induced and suppressed Mttp mRNA, respectively. However, Mttp induction by ChREBP was much more potent than suppression by SHP. Promoter assays of Mttp and the liver type pyruvate kinase gene revealed that SHP and ChREBP did not affect the transcriptional activity of each other. Mttp mRNA and protein levels of Shp-/- mice were similar to those of wild-types however, those of Chrebp-/-Shp-/- and Chrebp-/- mice were significantly much lower. Consistent with this, the VLDL particle number and VLDL secretion rates in Shp-/- mice were similar to wild-types but were much lower in Chrebp-/- and Chrebp-/-Shp-/- mice. These findings suggest that ChREBP, rather than SHP, regulates VLDL secretion under normal conditions and that ChREBP and SHP do not affect the transcriptional activities of each other.
  • Iizuka Katsumi
    Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease, 1863(2) 474-485, Feb, 2017  Peer-reviewedInvited
    Carbohydrate-response element-binding protein (ChREBP) has been identified as a transcription factor that binds to carbohydrate response element in the promoter of pyruvate kinase, liver and red blood cells. ChREBP is activated by metabolites derived from glucose and suppressed by adenosine monophosphate (AMP), ketone bodies and cyclic cAMP. ChREBP regulates gene transcription related to glucose and lipid metabolism. Findings from knockout mice and human subjects suggest that ChREBP helps to induce hepatic steatosis, dyslipidemia, and glucose intolerance. Moreover, in tumor cells, ChREBP promotes aerobic glycolysis through p53 inhibition, resulting in tumor cell proliferation. Anti-diabetic and anti-lipidemic drugs such as atorvastatin, metformin, bile acid sequestrants, docosahexaenoic acid and eicosapentaenoic acid may affect ChREBP transactivity. Secretory proteins such as fibroblast growth factor 21 and ANGPTL8 (Betatrophin) may be promising candidates for biologic markers reflecting ChREBP transactivity. Thus, ChREBP is associated with metabolic diseases and cancers, and may be a link between them.
  • Katsumi Iizuka
    NUTRIENTS, 9(2) 181, Feb, 2017  Peer-reviewedInvitedLead authorLast authorCorresponding author
    Many articles have discussed the relationship between fructose consumption and the incidence of obesity and related diseases. Fructose is absorbed in the intestine and metabolized in the liver to glucose, lactate, glycogen, and, to a lesser extent, lipids. Unabsorbed fructose causes bacterial fermentation, resulting in irritable bowl syndrome. Therefore, understanding the mechanisms underlying intestinal and hepatic fructose metabolism is important for the treatment of metabolic syndrome and fructose malabsorption. Carbohydrate response element binding protein (ChREBP) is a glucose-activated transcription factor that controls approximately 50% of de novo lipogenesis in the liver. ChREBP target genes are involved in glycolysis (Glut2, liver pyruvate kinase), fructolysis (Glut5, ketohexokinase), and lipogenesis (acetyl CoA carboxylase, fatty acid synthase). ChREBP gene deletion protects against high sucrose diet-induced and leptin-deficient obesity, because Chrebp(-/-) mice cannot consume fructose or sucrose. Moreover, ChREBP contributes to some of the physiological effects of fructose on sweet taste preference and glucose production through regulation of ChREBP target genes, such as fibroblast growth factor-21 and glucose-6-phosphatase catalytic subunits. Thus, ChREBP might play roles in fructose metabolism. Restriction of excess fructose intake will be beneficial for preventing not only metabolic syndrome but also irritable bowl syndrome.
  • Katsumi Iizuka, Wudelehu Wu, Yukio Horikawa, Masayuki Saito, Jun Takeda
    ENDOCRINE JOURNAL, 60(10) 1145-1153, Oct, 2013  Peer-reviewed
    Carbohydrate response element binding protein (ChREBP) and peroxisome proliferator-activated receptor alpha (PPAR alpha) play an important role in the regulation of lipid metabolism in the liver. Chrebp and Ppara mRNA levels are equally abundant in brown adipose tissue and liver. However, their functions in brown adipose tissues are unclear. In this study, we attempted to clarify the role of ChREBP and PPAR alpha using brown adipose HB2 cell lines and tissues from wild type and Chrebp(-/-) C57BL/6J mice. In liver and brown adipose tissues, Chrebpb mRNA levels in the fasting state were much lower than those fed ad libitum, while Ppara mRNA levels in the fasting state were much higher than in the fed state. In differentiated brown adipose HB2 cell lines, glucose increased mRNA levels of ChREBP target genes such as Chrebpb, Fasn, and Glut4 in a dose dependent manner, while glucose decreased both Chrebpa and Ppara mRNA levels. Accordingly, adenoviral overexpression of ChREBP and a reporter assay demonstrated that ChREBP partially suppressed Ppara and Acox mRNA expression. Moreover, in brown adipose tissues from Chrebp(-/-) mice, Chrebpb and Fasn mRNA levels in the ad libitum fed state were much lower than those in the fasting state, while Ppara and Acox mRNA levels were not. Finally, using Wy14,643, a selective PPAR alpha agonist, and overexpression of PPAR alpha partially suppressed glucose induction of Chrebpb and Fasn mRNA in HB2 cells. In conclusion, the feedback loop between ChREBP and PPAR alpha plays an important role in the regulation of lipogenesis in brown adipocytes.
  • Katsumi Iizuka, Jun Takeda, Yukio Horikawa
    FEBS LETTERS, 583(17) 2882-2886, Sep, 2009  Peer-reviewed
    Fibroblast growth factor 21 (FGF21) has beneficial effects of improving the plasma glucose and lipid profiles in diabetic rodents. Here, we investigated carbohydrate response element binding protein (ChREBP) involvement in the regulation of FGF21 mRNA expression in liver. Glucose stimulation and adenoviral overexpression of dominant active ChREBP increased FGF21 mRNA. Consistently, adenoviral expression of dominant negative Mlx inhibited glucose induction of FGF21 mRNA. Furthermore, deletion studies of mouse FGF21 gene promoter (-2000 to +65 bp) revealed a glucose responsive region between -74 and -52 bp. These findings suggest that FGF21 expression is regulated by ChREBP. (C) 2009 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.
  • Katsumi Iizuka, Yukio Horikawa
    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 374(1) 95-100, Sep, 2008  Peer-reviewed
    BHLHB2/DEC1 is a transcription factor implicated in cell proliferation, apoptosis, and metabolism, and is also known to play an important role in the regulation of the mammalian circadian rhythm. However, its precise role in metabolism remains unclear. We investigated the link between BHLHB2 and ChREBP, a glucose-activated transcription factor involved in the regulation of lipogenesis. Glucose simulation and overexpression of dominant active ChREBP induced Bhlhb2 mRNA expression in rat hepatocytes. Deletion studies showed that ChoRE (-160 to -143 bp) in the mouse Bhlhb2 promoter region is functional in vivo. Overexpression of BHLHB2 inhibited glucose and ChREBP-mediated induction of rat Fasn and liver pyruvate kinase (Lpk) mRNA. ChIP assay demonstrated that BHLHB2 bound to ChoRE in the Fasn, Lpk, and Bhlhb2 promoter regions in vivo. In conclusion, BHLHB2 and ChREBP constitute a novel feedback loop involved in the regulation of lipogenesis. (C) 2008 Elsevier Inc. All rights reserved.
  • Katsumi Iizuka, Yukio Horikawa
    ENDOCRINE JOURNAL, 55(4) 617-624, Aug, 2008  Peer-reviewed
    Excess carbohydrate intake leads to fat accumulation and insulin resistance. Glucose and insulin coordinately regulate de novo lipogenesis from glucose in the liver, and insulin activates several transcription factors including SREBP1c and LXR, while those activated by glucose remain unknown. Recently, a carbohydrate response element binding protein (ChREBP), which binds to the carbohydrate response element (ChoRE) in the promoter of rat liver type pyruvate kinase (LPK), has been identified. The target genes of ChREBP are involved in glycolysis, lipogenesis, and gluconeogenesis. Although the regulation of ChREBP remains unknown in detail, the transactivity of ChREBP is partly regulated by a phosphorylation/dephosphorylation mechanism. During fasting, protein kinase A and AMP-activated protein kinase phosphorylate ChREBP and inactivate its transactivity. During feeding, xylulose-5-phosphate in the hexose monophosphate pathway activates protein phosphatase 2A, which dephosphorylates ChREBP and activates its transactivity. ChREBP controls 50% of hepatic lipogenesis by regulating glycolytic and lipogenic gene expression. In ChREBP(-/-) mice, liver triglyceride content is decreased and liver glycogen content is increased compared to wild-type mice. These results indicate that ChREBP can regulate metabolic gene expression to convert excess carbohydrate into triglyceride rather than glycogen. Furthermore, complete inhibition of ChREBP in ob/ob mice reduces the effects of the metabolic syndrome such as obesity, fatty liver, and glucose intolerance. Thus, further clarification of the physiological role of ChREBP may be useful in developing treatments for the metabolic syndrome.
  • Shawn C. Burgess, Katsumi Iizuka, Nam Ho Jeoung, Robert A. Harris, Yoshihiro Kashiwaya, Richard L. Veech, Tatsuya Kitazume, Kosaku Uyeda
    JOURNAL OF BIOLOGICAL CHEMISTRY, 283(3) 1670-1678, Jan, 2008  Peer-reviewed
    Livers from mice lacking the carbohydrate-responsive element-binding protein (ChREBP) were compared with wild type (WT) mice to determine the effect of this transcription factor on hepatic energy metabolism. The pyruvate dehydrogenase complex was considerably more active in ChREBP(-/-) mice because of diminished pyruvate dehydrogenase kinase activity. Greater pyruvate dehydrogenase complex activity caused a stimulation of lactate and pyruvate oxidation, and it significantly impaired fatty acid oxidation in perfused livers from ChREBP(-/-) mice. This shift in mitochondrial substrate utilization led to a 3-fold reduction of the free cytosolic [NAD(+)]/[NADH] ratio, a 1.7-fold increase in the free mitochondrial [NAD(+)]/[NADH] ratio, and a 2-fold decrease in the free cytosolic [ATP]/[ADP][P-i] ratio in the ChREBP(-/-) liver compared with control. Hepatic pyruvate carboxylase flux was impaired with ChREBP deletion secondary to decreased fatty acid oxidation, increased pyruvate oxidation, and limited pyruvate availability because of reduced activity of liver pyruvate kinase and malic enzyme, which replenish pyruvate via glycolysis and pyruvate cycling. Overall, the shift from fat utilization to pyruvate and lactate utilization resulted in a decrease in the energy of ATP hydrolysis and a hypo-energetic state in the livers of ChREBP(-/-) mice.
  • Katsumi Iizuka, Bonnie Miller, Kosaku Uyeda
    AMERICAN JOURNAL OF PHYSIOLOGY-ENDOCRINOLOGY AND METABOLISM, 291(2) E358-E364, Aug, 2006  Peer-reviewed
    The transcription factor carbohydrate response element-binding protein (ChREBP) mediates insulin-independent, glucose-stimulated gene expression of multiple liver enzymes responsible for converting excess carbohydrate to fatty acids for long-term storage. To investigate ChREBP's role in the development of obesity and obesity-associated metabolic dysregulation, ChREBP-deficient mice were intercrossed with ob/ob mice. As a result of deficient leptin expression, ob/ob mice overeat, become obese and resistant to insulin, and display marked elevations in hepatic lipogenesis, gluconeogenesis, and plasma glucose and triglycerides. mRNA expression of all hepatic lipogenic enzymes was significantly lower in ob/ob- ChREBP(-/-) than in ob/ob mice, resulting in decreased hepatic fatty acid synthesis and normalization of plasma free fatty acid and triglyceride levels. Overall weight gain in addition to adiposity was reduced in the doubly deficient mice. The former was largely attributable to decreased food intake and may result from decreased hypothalamic expression of the appetite-stimulating neuropeptide agouti-related protein. mRNA expression and activity of gluconeogenic enzymes also was lower in the doubly deficient mice, contributing to significantly lower blood glucose levels. The results of this study suggest that inactivation of ChREBP expression not only reduces fat synthesis and obesity in ob/ob mice but also results in improved glucose tolerance and appetite control.
  • S Ishii, K Iizuka, BC Miller, K Uyeda
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 101(44) 15597-15602, Nov, 2004  Peer-reviewed
    Carbohydrate response element (ChRE)-binding protein (ChREBP) is a recently discovered transcription factor that is activated in response to high glucose concentrations in liver independently of insulin. ChREBP was first identified by its ability to bind the ChRE of the liver pyruvate kinase (LPK) gene. We recently reported that the increase in expression of multiple liver lipogenic enzyme mRNAs elicited by feeding a high-carbohydrate diet as well as that of LPK mRNA is markedly reduced in mice lacking ChREBP gene expression (ChREBP(-/-)) in comparison to WT mice. The present study provides evidence for a direct and dominant role of ChREBP in the glucose regulation of two key liver lipogenic enzymes, acetyl-CoA carboxylase (ACC) and fatty acid synthase (FAS). ACC, FAS, and LPK mRNA levels were higher in WT hepatocytes cultured with high (25 mM) rather than low (5.5 mM) glucose medium, but there was no effect of glucose concentration on these mRNA levels in ChREBP(-/-) hepatocytes. Similarly, reporter constructs containing ACC, FAS, or LPK gene ChREs were responsive to glucose when transfected into WT but not ChREBP(-/-) hepatocytes, and glucose transactivation of the constructs in ChREBP(-/-) hepatocytes was restored by cotransfection with a ChREBP expression plasmid. ChREBP binding to ACC, FAS, and LPK ChRE sequences in vitro was demonstrated by electrophoretic mobility super shift assays. In vivo binding of ChREBP to ACC, FAS, and LPK gene promoters in intact liver nuclei from rats fed a high-carbohydrate diet was demonstrated by using a formaldehyde crosslinking and chromatin immunoprecipitation procedure.
  • K Iizuka, RK Bruick, G Liang, JD Horton, K Uyeda
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 101(19) 7281-7286, May, 2004  Peer-reviewed
    The liver provides for long-term energy needs of the body by converting excess carbohydrate into fat for storage. Insulin is one factor that promotes hepatic lipogenesis, but there is increasing evidence that glucose also contributes to the coordinated regulation of carbohydrate and fat metabolism in liver by mechanisms that are independent of insulin. In this study, we show that the transcription factor, carbohydrate response element-binding protein (ChREBP), is required both for basal and carbohydrate-induced expression of several liver enzymes essential for coordinated control of glucose metabolism, fatty acid, and the synthesis of fatty acids and triglycerides in vivo.

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